Circuit breaker apparatus

ABSTRACT

A circuit breaker device which is particularly useful with direct current such as in an automotive application comprises a main creep-acting thermostatic strip member mounted on a second auxiliary U-shaped thermostatic member, the U-shaped member being attached to the strip with the high and low expansion layers being dissimilar or reversed in order to obtain increased contact force prior to actuation and faster contact opening and in effect, greater differential after actuation. One leg of the Ushaped thermostatic member is mounted on a base plate, the other leg cantilever mounts the thermostatic strip. A contact is located on the free distal end of the thermostatic strip and is adapted to move into and out of engagement with a stationary contact supported on the base plate but electrically insulated therefrom. A special insulator pad mounts the stationary contact and is received on and locked in place on the base plate.

United States Patent [191 Senor et a1,

[ June 18, 1974 ClRCUlT BREAKER APPARATUS [73] Assignee: TexasInstruments Incorporated,

Dallas, Tex.

[22] Filed: Oct. 30, 1972 21 Appl. No.: 302,158

[52] [1.8. Ci. 337/85, 200/ 168 A, 200/168 B, 337/113, 337/381 [51] int.Cl. H0lh 61/04 [58] Field of Search 337/112, 113, 380, 381, 337/85, 168;200/168 A, 168 B, 168 C [5 6] References Cited UNITED STATES PATENTS3,577,111 5/1971 Nardulli 337/113 X 3,609,620 9/1971 Lee 337/112 XPrimary ExaminerBernard A. Gilheany Assistant ExaminerFred E. BellAttorney, Agent, or Firm-John A. Haug; James P. McAndrews; Edward .1.Connors, Jr.

[5 7] ABSTRACT A circuit breaker device which is particularly usefulwith direct current such as in an automotive application comprises amain creep-acting thermostatic strip member mounted on a secondauxiliary U-shaped thermostatic member, the U-shaped member beingattached to the strip with the high and low expansion layers beingdissimilar or reversed in order to obtain increased contact force priorto actuation and faster contact opening and in effect, greaterdifferential after actuation. One leg of the U-shaped thermostaticmember is mounted on a base plate, the other leg cantilever mounts thethermostatic strip. A contact is located on the free distal end of thethermostatic strip and is adapted to move into and out of engagementwith a stationary contact supported on the base plate but electricallyinsulated therefrom. A special insulator pad mounts the stationarycontact and is received on and locked in place on the base plate.

9 Claims, 12 Drawing Figures PAIENIED 3.8 1 8 .404

sum 1 nr 4 v /0 LE; i

a0 K J PMENTEDJUN 1 81914 SHEET 0F 4 50'0 TEMPE/PA mp5 "F CIRCUITBREAKER APPARATUS This invention relates to circuit breaker devices andmore particularly to a circuit breaker especially useful in automotivetype direct current applications. There are many automotive powerapplications ranging from low amperage requirements, for example, 17 toamperes on windshield wipers to higher amperage requirements such as 60amperes on a seat lift which require reliable long lived circuitprotection. Circuit breaker devices employing a snap-acting element arenot suitable for several reasons. It is desirable to permit operation ofthe motor so that its intended function can be achieved, such asoperating the windshield wipers, even if a fault exists but at the sametime prevent overheating of the motor. With a snap-acting device it isdifficult to obtain the desired differential, the life of the device isinherently more limited than a creep type and in general they aresensitive to ambient temperature variations. This invention relates toimprovements in such a circuit breaker as shown in US. Pat. No.2,585,068. In that patent, a circuit breaker is shown having a mainbimetal of a first electrical resistance per unit of length and of afirst deflection and an oppositely acting auxiliary bimetal of a secondhigher resistance per unit of length and shorter deflection connectedthereto, the main portion being bent into a U-shape with one legcarrying the movable contact at its inner side. The opposed leg of theU-shaped bimetal is connected to an end of the auxiliary bimetal withthe other end mounted upon a terminal post which serves as a heat sinkfor conduction of heat from the reverse portion. The auxiliary bimetalacts to increase the pressure on and maintain the contacts closedbriefly upon heating above the ambient temperature. With a straightauxiliary strip bimetal and a U-shape main operating bimetal connectedtogether in electrical and thermal conducting relation in the mannerindicated, when a normal current flows through the breaker below anoverload value, the auxiliary bimetal bends downwardly pressing thecontacts more firmly together; however, upon heating by an overloadcurrent flow, the movements of the main operating bimetal predominatehaving been heated above an opening temperature. Eventually movement ofthe main operating bimetal causes the contacts to separate, theinterruption of current flow causing a continued separating movement ofthe contacts toward fully open position as the auxiliary bimetal cools.However the arrangement of the main and auxiliary bimetals is such thatno effective means is provided to either break any contact welds whichmay occur or to prevent the formation of such welds. The movement of thecontact on the U-shaped main operating bimetal is in a directiongenerally normal to the 'contact face with virtually no shear forceexerted between the contacts, which shear force is effective both inpreventing the formation of contact welds and breaking them upon theoccurrence of any. Further, the stationary contact and terminal assemblyhas no positive lock to prevent turning and concomitant changes inelectrical separation between the assembly and the base plate.

Thus it is an object of the invention to provide a circuit breakerparticularly suitable for automotive applications having wiping contactaction to prevent formation of contact welds and having stationarycontact and terminal structure with means to avoid turning and twistingthereof.

Briefly, a circuit breaker built in accordance with the inventionemploys a U-shaped auxiliary thermostatic strip having legs ofapproximately equal length with a straight thermostatic main stripmounted to one leg of the U-shaped member with the dissimilarcoefficients of expansion adjacent one another. As the most activemember, the Ushaped member, deflects, it forces the main member in adirection along its longitudinal axis causing wiping of the contacts.The stationary contact is mounted on a terminal which is received on aninsulating pad, the pad in turn is mounted on the circuit breakersupport plate in such a way that it is securely locked in place and haspositive means to prevent turning or twisting thereof.

The invention accordingly comprises the constructions hereinafterdescribed, the scope of the invention being indicated in the appendedclaims.

In the accompanying drawings in which the preferred embodiment isillustrated:

FIG. 1 is a side view of a circuit breaker made in accordance with theinvention;

FIG. 2 is a top view of the FIG. 1 structure;

FIG. 3 is a bottom view of the FIG. 1 structure;

FIG. 4 is a view similar to FIG. 2 but with the auxiliary bimetallicmember broken away;

FIG. 5 is a side view of the support plate;

FIG. 6 is a top view of the FIG. 5 support plate;

FIG. 7 is a top view of the insulating pad;

FIG. 8 is a cross section of the insulating pad taken on lines 88 ofFIG. 7;

FIG. 9 is a perspective view of the stationary contact and terminalstructure;

FIG. 10 is a side view of a support plate mounting the insulating padand stationary contact and tenninal structure, partly broken away andpartly in cross section to show certain of the locking means employed;

FIG. 11 is a view similar to FIG. 1 showing the thermostatic members asthey appear just prior to contact opening and showing the loci of thetwo opposite ends of the main thermostatic members; and

FIG. 12 is a graph showing flexivity versus temperature for twomaterials which can be used for the respective thermostatic members.

Corresponding reference characters indicate corresponding partsthroughout the several views of the drawings.

The circuit breaker illustrated in the drawings is generally indicatedby numeral 10. It comprises a bracket 12 having a base plate 14 and adepending mounting wall 16. Apertures l8 and 20 are provided in wall 16to facilitate mounting of circuit breaker 10 as desired, as on a brushcard. Plate 14, as best seen in FIG. 6, is provided with cut outportions 22, 26 and notches 24 and 28 for purposes to be explainedinfra.

Mounted on plate 14 is an insulator and stationary contact assembly 30comprising an insulative pad 32 formed of an electrically insulatedmaterial such as a thermoset resin, having an upper platform 34 and alower platform 36 connected by stop wall 38. Platforms 34 and 36 lie ingenerally parallel planes. As seen in FIGS. 7 and 8 boss 40 is formedbetween the upper and lower platforms adjacent stop wall 38. A lip 42depends from upper platform 34 and extends laterally from the center toone side. Ribs 44, 46 are formed in the upper platform 34 and extendalong the length thereof. Plate 14 is received between upper and lowerplatforms 34, 36 with boss 40 of insulating member 32 received in notch28 and lip 42 received in notch 24 to lock the insulating member inplace.

Stationary contact 50 is mounted as by welding on terminal plate 52which has an arm 54 depending downwardly therefrom. Plate 52 is receivedon insulating member 32 between ribs 44, 46 which maintain plate 52 inaligned position. Leg 54 is received in aligned apertures 56 ofinsulating pad 32 and 26a of plate 14 and is staked securely in place byspreading bifurcations 58, 60. As indicated in FIG. 6, aperture 26a issized to provide desired electrical insulation (air space) between theplate 14 and the leg 54 (in dashed lines).

Striking leg 54 from terminal strip 52 and bending it to extenddownwardly therefrom leaves arms 62, 64 which provide an elongatedsurface for abutment with ribs 44, 46 to provide positive maintenance ofterminal plate in its proper location. The space between legs 62, 64 isaligned with aperture 26b of plate 14 and aperture 66 of insulating pad32 for a purpose to be described below.

Tongue 68 extends into aperture 22 and is formed with a weld projection70 for mounting of U-shaped thermostatic member such as member 72 whichin turn cantilever mounts another thermostatic member such as bimetallicstrip 74 as by welding as indicated at 75. Strip 74 mounts contact 76 onits free distal end portion aligned to move into and out of engagementwith stationary contact 50.

U-shaped thermostatic member 72 has a high coefficient of expansion sideHE located on the inside of the U-shaped bend. The high coefficient ofexpansion side HE of strip thermostatic member 74 faces member 72 sothat dissimilar sides of the members are contiguous.

Bracket 12 is preferably formed of a weldable material such as steelwhich is ball peened with copper flash to minimize rust. Bimetallicstrip 74, U-shaped strip 72 and bracket 12 are welded together, theinsulative pad 32 is slid into position and finally tenninal plate 52 isplaced between ribs 44 and 46 of pad 32 with leg 54 received in aperture56 of pad 32 and 26 of plate 14.

The circuit breaker is calibrated by inserting a rod through aperture 66and biasing it against strip 74 with a predetermined force causing thecontacts to open.

Tongue 68 is then bent until the contacts close and then the rod iswithdrawn with the device calibrated to that force. It should be notedthat with this method of calibration that 100 percent yield can beachieved since the calibration tab can be bent in either direction.Terminal piece 52 as well as stationary contact is silver plated toprevent the possibility of corrosion.

U-shaped bimetallic member 72 is chosen so that it has a higherresistivity than strip 74 so that contact pressure will increase priorto opening thereof. The U- shaped member controls mainly the on timeswhile the strip 74 controls the no current temperature trip point. Itwill be noted that upon overcurrent, deflection of the more activebimetallic strip 72 causes the top blade to move to the right as viewedin FIG. 11, thus causing contact wiping. This has the advantage thateven contact wear is obtained and contact welds are avoided. This isparticularly important on direct current motors dueto the tendency toform ionized paths between the contacts and results in better life thanobtainable in the prior art.

The insulative pad is made in such a way that it snaps into place withlip 42 being received in notch 24 thus facilitating assembly of thedevice since the part is located in its proper position without thenecessity of being separately held. Cooperating with lip 42 received innotch 24 to prevent twisting or turning of insulating pad 32 is boss 40formed on connecting portion 38 of insulating pad 32 which is receivedin notch 28 of the mounting bracket. Terminal plate 52 is then placedbetween ribs 44 and 46 which prevents twisting of the terminal platewithin the insulative pad and when bifurcations 58 and 60 are spreadoutwardly yet another means locks the pieces together. Aperture 66 inthe pad is aligned with the space between legs 62 and 64 of tenninalplate 52 and portion 26b of aperture 26 to provide access for thecalibrating rod. Aperture portion 26a is formed large enough thatsufficient air space is provided between plate 14 and leg 54 of terminal52 which prevents so called high pot failures.

Holes 80 in plate 14 and 82 in terminal plate 52 are provided tofacilitate electrical attachment to circuit breaker 10. The circuitbreaker is normally used with bracket 12, mounted on a brush card byplacing fasteners (not shown) through apertures 18 and 20 with terminal82 connected to the card of the motor and terminal 80 connected toground.

Circuit breaker 10 is not adversely affected by fluctuations in ambienttemperature as would snap-acting devices since deflection in strip 74 isoffset by an opposite deflection in member 72. That is, as temperatureincreases, strip 74 deflects in a direction which tends to cause contactopening; however, member 72 deflects such that the U-shaped member openstending to straighten itself in a contact closing direction and offsetsthe deflection in strip 74. Actually the net movement of contact 76mounted on the free distal end of strip 74 is slightly to the right asviewed in FIG. 11 causing a slight amount of contact wiping. As member72 changes in temperature, point E moves along the locus identified bydashed lines AB in FIG. 11. Since a decrease in temperature will havejust the opposite effect on strip 74 and member 72 it will be seen thatthere is continual contact wiping as ambient temperature fluctuatesthereby keeping the contact surfaces clean and preventing the beginningformations of contact welds.

Member 72 is chosen so that its value of electrical resistivity isgreater by approximately twice as much as for member 74. Member 72 alsopreferably is formed with a smaller cross section as can be observed bycomparing the width of the members in FIG. 2. It will be understood thatthis could also be accomplished by making the thickness of member 72less than that of member 74. The material for member 72 is also chosenhaving a flexivity v. temperature curve with a sharp knee, that is theflexivity decreases with increasing temperature above a predeterminedtemperature. Flexivity is a measure of how much a thermostat metal moveswith a change in temperature and may be defined as the change incurvature of the longitudinal center line of the specimen per unit oftemperature change for unit thickness. Reference may be had to FIG. 12showing flexivity versus temperature curves for materials which can beused for members 72, 74 respectively. When circuit breaker 10 isenergized, auxiliary member 72 heats at a faster rate than does member74 due to its higher value of resistivity. Thus as seen in FIG. 11,radius r of member 72 becomes larger moving member 74 and contact 76toward the position shown in solid lines from the dashed line position.This movement causes contact 76 to slide or wipe across stationarycontact 50 as well as to rock against the stationary contact. Normalcurrent levels conducted through the breaker will cause member 72 todeflect more than strip 74 thereby causing contact 76 to move further tothe right as viewed in FIG. l1 and causing an increase in contact force.Heat is conducted away from member 72 into bracket 12 and strip 74;however, a slight differential in temperature remains with member 72maintained at a higher temperature. Eventually the auxiliary member 72reaches a temperature at which radius r is not increasing so rapidly,that is when the slope of the flex ivity versus temperature curvedecreases. At the same time, member 74 is being heated with the resultthat radius R is decreasing. it will be seen that the rate of change inradius R of member 74 in relation to radius r of member 74 increaseswhen the flexivity of member 72 begins to decrease. Upon overcurrent,eventually member 74 deflects enough to cause contact 76 to separatefrom contact 50. Since member 72 is of less mass than member 74, washeated to a higher temperature, and is mounted directly on plate 14which acts as a heat sink, it cools more quickly and point E moves alongits locus AB toward its original position (dashed line in FIG. 11)causing an increase in the speed of contact opening and the totaldistance of separation of the contacts. Dashed line CD identifies thelocus of point F near the free distal end of member 74 as it moves fromcontact opening to contact closing.

Thus it may be seen from the above that the instant invention providesan improved circuit breaker having longer life characteristics than theprior art due to contact wiping and improved stationary contact terminalassembly.

In view of the above, it will be seen that the several objects of theinvention are achieved and other advantageous results obtained.

As various changes could be made in the above construction withoutdeparting from the scope of the invention, it is intended that allmatter contained in the above description or shown in the accompanyingdrawings shall be interpreted as illustrative and not in a limitingsense.

We claim:

1. An electric switch comprising an electrically conductive base plate,an electrically insulative pad including first and second generallyparallely extending platforms having first and second ends, the baseplate disposed intermediate the first and second platform, an

electrically conductive terminal means mounted on the pad electricallyisolated from the base plate, movable contact means adapted to bring thebase plate and the terminal means into and out of electrical engagementand means interfitting between the pad and the base plate to lock thepad onto the base plate for preventing twisting movement of the pad.

2. A switch according to claim 1 in which the interfitting means forpreventing twisting movement of the pad includes a stop wall joining thefirst ends of the platforms, a boss extending from the stop wall, thebase plate formed with a first notch with the boss received in the firstnotch of the base plate.

3. A switch according to claim 2 in which the interfitting means forpreventing twisting movement of the pad further includes a lip formed onone of the platforms extending toward the other platform, and a secondnotch is defined in the base plate with the lip received in the secondnotch.

4. A switch according to claim 3 in which the lip is formed adjacent thesecond end of the pad and extends laterally from approximately thecenter of the end to a side thereof.

5. A switch according to claim 2 in which the terminal means comprises aterminal member having a downwardly extending leg depending therefrom,the base plate and pad formed with aligned apertures therein, theterminal member received in the pad with the leg received in the alignedapertures, the free distal end portion of the leg staked to lock theterminal in place.

6. A switch according to claim 5 in which the pad is provided with twogenerally parallely extending ribs, the terminal member having twogenerally parallel sides closely fitting between the two ribs to preventtwisting movement of the terminal member on the pad.

7. A switch according to claim 6 in which the downwardly extending legis struck from a central portion of the terminal member thereby leavingan extended surface area of the terminal member in contact with theribs.

8. A switch according to claim 5 in which the aperture formed in thebase plate through which the terminal leg extends is definedsufficiently large to provide desired electrical insulation between theterminal leg and the base plate.

9. A switch according to claim 1 in which the interfitting means forpreventing twisting movement of the pad includes a lip formed on one ofthe platforms extending toward the other platform, and a notch isdefined in the base plate with the lip received in the

1. An electric switch comprising an electrically conductive base plate,an electrically insulative pad including first and second generallyparallely extending platforms having first and second ends, the baseplate disposed intermediate the first and second platform, anelectrically conductive terminal means mounted on the pad electricallyisolated from the base plate, movable contact means adapted to bring thebase plate and the terminal means into and out of electrical engagementand means interfitting between the pad and the base plate to lock thepad onto the base plate for preventing twisting movement of the pad. 2.A switch according to claim 1 in which the interfitting means forpreventing twisting movement of the pad includes a stop wall joining thefirst ends of the platforms, a boss extending from the stop wall, thebase plate formed with a first notch with the boss received in the firstnotch of the base plate.
 3. A switch according to claim 2 in which theinterfitting means for preventing twisting movement of the pad furtherincludes a lip formed on one of the platforms extending toward the otherplatform, and a second notch is defined in the base plate with the lipreceived in the second notch.
 4. A switch according to claim 3 in whichthe lip is formed adjacent the second end of the pad and extendslaterally from approximately the center of the end to a side thereof. 5.A switch according to claim 2 in which the terminal means comprises aterminal member having a downwardly extending leg depending therefrom,the base plate and pad formed with aligned apertures therein, theterminal member received in the pad with the leg received in the alignedapertures, the free distal end portion of the leg staked to lock theterminal in place.
 6. A switch according to claim 5 in which the pad isprovided with two generally parallely extending ribs, the terminalmember having two generally parallel sides closely fitting between thetwo ribs to prevent twisting movement of the terminal member on the pad.7. A switch according to claim 6 in which the downwardly extending legis struck from a central portion of the terminal member thereby leavingan extended surface area of the terminal member in contact with theriBs.
 8. A switch according to claim 5 in which the aperture formed inthe base plate through which the terminal leg extends is definedsufficiently large to provide desired electrical insulation between theterminal leg and the base plate.
 9. A switch according to claim 1 inwhich the interfitting means for preventing twisting movement of the padincludes a lip formed on one of the platforms extending toward the otherplatform, and a notch is defined in the base plate with the lip receivedin the notch.